Yağışın katı atıktan oluşan sera gazlarına olan etkisinin incelenmesi

Bu çalışmada, çöpteki günlük metan (CH4 ), karbon dioksit (CO 2) ve nitroz oksit (N2 O) sera gazlarıemisyonlarının yağış durumuna göre değişimini laboratuvar ölçeğinde simülasyon yapılarak analizedilmiştir. Bu simülasyonda dört farklı yağış tipi kullanılmıştır. G az miktarları günlük olarakkapalı bölme yöntemiyle ölçülmüştür. Örnekleme döneminde, CH 4 ortalama sera gazıemisyonlarında yağış arttıkça devamlı bir artış gözlendi. CO 2 ve N 2O emisyonları çöp su oranı 1/2oranına kadar bir artış gözlemlenmiş , o orandan sonra ise bir azalma gözlemlenmiş tir. Busonuçlarla çöp depolama alanına gelen yağış ile gaz emisyonu arasında bir ilişki bulmak için dahafazla örnekleme yapmak gerektiğini gösteriyor .

Precipitation resulting from the solid waste investigation of the impact on greenhouse gases

In this study, the daily landfill me thane (CH4), carbon dioxide (CO2) and nitrous oxide (N2O)emissions of greenhouse gases based on rainfall variation analysis was performed on thelaboratory scale simulation. In this simulation has been used four different precipitation types. Thegas amounts will be measured daily with the closed chamber method. During the period ofsampling, a verage greenhouse gas emissions of CH 4 were observed raise steadily as precipitationincreased. The CO 2 and N2 O emissions were observed raise by a ratio of 1/2 as of garbage/waterafter that ratio a reduction was observed. These results ne eds to conduct more sampling to find arelationship between precipitation and gas emission from a landfill.

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Allen, D.E., Dalal, R.C., Rennenberg, H., Meyer, R.L., Reeves, S., Schmidt, S., 2007. Spatial and temporal variation of nitrous oxide and methane flux between subtropic mangrove sediments and the atmosphere, Soil Bio. & Biochem. 39, 622631.
Barlaz, M.A., Green, R.B., Chanton, J.P., Goldsmith, C.D., Hater, G.R., 2004. Evaluation of biologically active cover for mitigation of landfill gas emissions. Env. Sci. & Tech. 38, 4891 4899.
Bogner, J., Matthews, E., 2003. Global methane emissions from landfills:new methodology and annual estimates 1980 1996. Global Biogeochemical Cycles 17(2), 34:1 18.
Bogner, J., Spokas, K., Burton, E., Sweeney, R., Corona, V., 1995.Landfills as atmospheric methane sources and sinks. Chemosphere 31, 41194130.
Bogner, J.E., S pokas, K.A., Burton, E.A., 1999. Temporal variations in greenhouse gas emissions at a midlatitude landfill. J . Env. Qual. 28, 278 288 .
Börjesson, G., Svensson, B.H., 1997. Nitrous oxide emission from landfill cover soils in Sweden. Tellus 49 (B), 357 363.
Chen, G.X., Huang, B., Xu, H., Zhang, Y., Huang, G.H., Yu, K.W., Hou, A.X., Du, R., Han, S.J., VanCleemput, O., 2000. Nitrous oxide emissions from terrestrial ecosystems in China, Chemosphere: Global Change Science 2, 373 378.
Chen, I- C.; Hegde, U.; Chang, C.H.; Yang, S. S., 2008. Methane and carbon dioxide emissions from closed landfill in Taiwan, Chemosphere (70) 14841491.
Claflin, A., 2011. Greenhouse Gas Accounting: Biogenic Carbon Emissions, M.Sc. Thesis, The University of Minnosota.
Einola, J.K.M. and Karhu, A.E., Rintala, J.A., 2008. Mechanicallybiologically treated municipal solid waste as a support medium for microbial methane oxidation to mitigate landfill greenhouse emissions. Waste Management 28, 97 - 111.
Environmental Protection Agency, 2004. G uidance on monitoring landfill gas surface emissions. Erisman, J.W., Bleeker, A., Hensen, A., Vermeulen, A., 2008. Agricultural air quality in Europe and the future perspectives, Atm. Env. 42 (14), 3209 3217.
Ghosh, S., Majumdar, D., Jain, M.C., 2003. Methane and nitrous oxide emissions from an irrigated rice of North India, Chemosphere 51, 181 195.
Hedge, U., Chang, T.C., Yang, S.S., 2003. Methane and carbon dioxide emissions from Shan- Chu-Ku landfill site in northern Taiwan. Chemosphere 52, 1275 1285.
Ina mori, R., Wang, Y.H., Yamamoto, T., Zhang, J.X., Kong, H.N., Xu, K.Q., Inamori, Y., 2008. Seasonal effect on N2O formation in nitrification in constructed wetlands. Chemosphere 73, 1071 1077.
Inubushi, K., Goyal, S., Sakamoto, K., Wada, Y., Yamakawa, K., Arai, T., 2000. Influences of application of sewage sludge compost on N2O production in soils. Chemosphere: Global Change Science 2, 329334.
IPCC, 2001. Climate Change 2001: the Scientific Basis. In: Houghton, J.T., Ding, Y., Griggs, D.J., Noguer, M., van der Linden, P.J., Dai, X., Maskell, K., Johnson, C.A. (Eds.), Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, Unite Kingdom/New York, NY.
IPCC. Climate Change 2007. Waste Management, In Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, United Kingdom and New York, NY, U SA.
Maljanen, M., Komulainen, V.M., Hytonen, J., Martikainen, P., Laine, J., 2004. Carbon dioxide, nitrous oxide and methane dynamics in boreal organic agricultural soils with different soil characteristics, Soil Bio. and Biochem. 36, 1801 1808.
Mandernack, K.W., Kinney, C.A., Coleman, D., Huang, Y. -S., Freeman, K.H., Bogner, J., 2000. The biogeochemical controls of N2O production and emission in landfill cover soils: the role of methanotrophs in the nitrogen cycle. Env. Microbio. 2, 298 309.
Ravishankara, A.R., Daniel, J.S., Portmann, R.W., 2009. Nitrous oxide (N2O): the dominant ozone -depleting substance emitted in the 21st century. Science 326 (5949), 123 -125.
Ruser, R., Flessa, H., Russow, R., Schmidt, G., Buegger, F., Munch, J.C., 2006.
Emission of N2O, N2 and CO2 from soil fertilized with nitrate: effect of compaction, soil moisture and rewetting. Soil Bio. and Biochem. 38, 263 274.
Tang, J., Bao, Z., Xiang, W., Gou, Q., 2008. Geological emission of methane from the Yakela condensed oil/gas field in Talimu Basin, Xinjiang, China, J . Env. Sci. (20) 1055 1062.
Wang, Y., Xue, M., Zheng, X., Ji, B., Du, R., Wang, Y., 2005. Effects of environmental factors on N2O emission from and CH4 uptake by the typical grasslands in the Inner Mongolia, Chemosphere 58, 205 215.
Zhang, H.H., He, P.J., Shao, L.M., 2008a. Methane emissions from MSW landfill with sandy soil covers under leachate recirculation and subsurface irrigation. Atm. Environment, 42(22), 55795588.
Zhang, H.H., He, P.J., Shao, L.M., 2008b. N2O emissions from municipal solid waste landfills with selected infertile cover soils and leachate subsurface irrigation, Env. Poll., (156), 959965.
Zhang, H.H., Yan, X., Zucong, C., Zhang, Y., 2013. Effect of rainfall on the diurnal variations of CH4, CO 2, and N2O fluxes from a municipal solid waste landfill, Sci. of the Total Env. , (442), 73 76.

Harran Üniversitesi Ziraat Fakültesi Dergisi-Cover

ISSN: 1300-6819
Yayın Aralığı: Yılda 4 Sayı
Yayıncı: İbrahim TOBİ

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